Hami Hashmi
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Posts posted by Hami Hashmi
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Hi,
What is the difference of mu-metal and soft iron on a atomic scale? Both soft iron and mu-metal have a high mu and low solubility but soft iron enhances a magnetic field and mu-metal absorbs it. So what is the difference?
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31 minutes ago, Strange said:
You can't do that.
There are some mesons (particles formed from a pair of quarks) with a positive charge. But in this case, only one quark can be up, the other would have to be strange or bottom (to end up with unit charge). A few other combinations can produce a net positive charge (of +1). But these are all highly unstable.
I suppose it might be possible to form a very brief "pseudo atom" of an electron orbiting a meson (such a thing doesn't appear here: https://en.wikipedia.org/wiki/Exotic_atom) but it would have a very short lifetime.
I don't see why that would be the case.
This might be the closest to your concept: https://en.wikipedia.org/wiki/Degenerate_matter
Well if the distance between the particles equals 0, then the electric field equals infinity as well as the magnetic field (since E is dependent of r and magnetic field is dependent on E).
I remember reading somewhere that the weak force becomes greater than the electromagnetic force for distances less than 10^-18 m so what I was thinking is if the particles could be smashed together that close, then the weak force would take over and contact the particles together, like gravity does to the particles in a singularity.
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Ok just forget the document i posted, doesn't make much sense.
If you just take my first post is the material i gave in there theoretically possible?
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Ok here is the document.
Material
Material Type: Electromagnet
Material Magnetic Flux Density: ∞ Tesla
Material Saturation: ∞ Tesla
Material Permeability: ∞ H/m
Material Susceptibility: 0 emu
Material Energy Loss: 0 Mw/Kg
Material Force: ∞ kPa
Material Entropy: 0 J/K
Material Entropy Increase Rate: 0 J/K/yr
Material Atom Spin Sequence: Up: Down:
Material Atom Electron-Electron Separation: 0 m
Material Atom Up Quark-Up Quark-Electron-Electron Separation Radius: 1 fm
Material Atom Electron-Electron Separation: 0 m
Material Atom Up Quark-Up Quark-Electron-Electron Separation Radius: 1 fm
Material Atom Up Quark-Up Quark Separation: 0 m
Material Atom Electron-Electron Acceleration: ∞ m/
Material Atom Up Quark-Up Quark Acceleration: ∞ m/
Material Atom Electron-Electron Accelerator: Electron-Electron Pair
Material Atom Electron-Electron Accelerator: Up Quark-Up Quark Pair
Material Atom Up Quark-Up Quark Accelerator: Up Quark-Up Quark Pair
Material Atom Up Quark-Up Quark Accelerator: Electron-Electron Pair
Material Atom Electron-Electron Motion: Circular
Material Atom Up Quark-Up Quark Motion: Circular
Material Atom Electron-Electron Nuclei Orbit Radius: 1 fm
Material Atom Up Quark-Up Quark Electron-Electron Orbit Radius: 1 fm
Material Atom Electron-Electron Pairs Orbit: Synchronous
Material Atom Up Quark-Up Quark Pairs Orbit: Synchronous
Material Atom Up Quark-Up Quark Spin: ∞
Material Atom Up Quark-Up Quark Spin Accelerator: Up Quark-Up Quark Pair
Material Atom Up Quark-Up Quark Pairs Spin Rates: Synchronous
Material Atom Up Quark-Up Quark North-North Poles: Aligned
Material Atom Up Quark-Up Quark South-South Poles: Aligned
Material Atom Electron-Electron Spin: ∞
Material Atom Electron-Electron Spin Accelerator: Electron-Electron Pair
Material Atom Electron-Electron Pairs Spin Rates: Synchronous
Material Atom Electron-Electron North-North Poles: Aligned
Material Atom Electron-Electron South-South Poles: Aligned
Material Atom Electron-Electron Electric Dipole Moment: -∞ e/cm
Material Atom Up Quark-Up Quark Electric Dipole Moment: ∞ e/cm
Material Atom Electron-Electron Magnetic Dipole Moment: -∞ A/
Material Atom Up Quark-Up Quark Magnetic Dipole Moment: ∞ A/
Material Atom Electron-Electron Electric Polarizability: 0
Material Atom Up Quark-Up Quark Electric Polarizability: 0
Material Atom Electron-Electron Electric Charge: -∞ e
Material Atom Up Quark-Up Quark Electric Charge: +∞ e
Material Atom Electron-Electron Mass: 1.82× kg
Material Atom Up Quark-Up Quark Mass: 8.20× kg
Material Atom Electron-Electron Magnetic Polarizability: ∞
Material Atom Up Quark-Up Quark Magnetic Polarizability: ∞
Material Atom Up Quark Radius: 0 m
Material Atom Up Quark Mass: 4.10× kg
Material Atom Up Quark Electric Charge: + e
Material Atom Up Quark Colour Charge: Yes
Material Atom Up Quark Spin:
Material Atom Up Quark Weak Isospin: LH = + RH = 0
Material Atom Up Quark Weak Hypercharge: LH = + RH = +
Material Atom Electron Radius: 0 m
Material Atom Electron Mass: 9.10× kg
Material Atom Electron Electric Charge: −1 e
Material Atom Electron Electric Dipole Moment: 10-38 e/cm
Material Atom Electron Magnetic Moment: −9.28× J⋅
Material Atom Electron Spin:
Material Atom Electron Weak Isospin: LH = − RH = 0
Material Atom Electron Weak Hypercharge: LH = -1 RH = −2
Material Atom Separation: m
Material Atom Chemical Bond Strength: ∞ N
Material Atom Up Quark-Up Quark Electron-Electron Attraction Force: Electromagnetic Force
Material Atom Up Quark-Up Quark Attraction Force: Weak Force
Material Atom Electron-Electron Attraction Force: Weak Force
Electromagnetic Field Carrier Particle: Photon
Photon Mass: 0 kg
Photon Charge: 0 e
Photon Spin: 1
Photon Parity: -1
Photon C Parity: -1
Weak Force Carrier Particle: Boson
Weak Force Carrier Particle: Boson
Weak Force Carrier Particle: Boson
Boson Mass: 1.43112× kg
Boson Charge: -1 e
Boson Spin: 1
Boson Weak Isospin: -1
Boson Weak Hypercharge: 0
Boson Mass: 1.43112× kg
Boson Charge: +1 e
Boson Spin: 1
Boson Weak Isospin: 1
Boson Weak Hypercharge: 0
Z Boson Mass: 1.62336× kg
Z Boson Charge: 0 e
Z Boson Spin: 1
Z Boson Weak Isospin: 0
Z Boson Weak Hypercharge: 0
Material Atom Nuclei Up Quarks: 2
Material Atom Electrons: 2
Material Hardness: ∞ Mohs
Material Yield Strength: ∞ MPa
Material Tensile Strength: ∞ MPa
Material Toughness: ∞ J/
Material Stiffness: ∞ MPa
Material Density: 1 kg/
35 minutes ago, swansont said:!Moderator NoteI take this to mean you have some sort of proposal, but you should not be asking for people to open a document from an unknown source, and rule 2.7 states, in part, "members should be able to participate in the discussion without clicking any links"
IOW, you need to post your hypothesis here.
Why on earth would they do that? Is there any evidence that this actually happens?
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Hi,
I have been recently looking into a thought experiment of a theoretical material which is composed of negative charges (electrons) fused together (with r=0) and positive charges (up quarks) fused together (r=0) so that the magnetic field would equal infinity.
The idea with this material is to have the electron-electron pairs and up quark-up quark pairs be placed in orbit around each other and to have the orbits synchronized so that the same charged pairs can accelerate their counterparts up to a greater orbital speed (therefore increasing the magnetic field). Also the pairs with the same charge will have their spins synchronized as well so that they speed up each others spins to increase the magnetic field.
The electron pairs and the up quark pairs will both be held together by the weak force (which becomes larger then electromagnetic force at ultra high energies).
So what I was wondering about this is if two point particles merged (as stated above) would they form another point particle or a miniature black hole?
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Magnetic Field as distance between charges=0
in Speculations
Posted · Edited by Hami Hashmi
How do gravitational singularities not exist?